Turret injection machine



Aug. 16, 1949.. v

Filed July 13, 1944 F. M MlLLiN TURRET INJECTION MACHINE 3 Sheets-Sheet l OR HOWARD EMACMILLIN wo-W ATTORNEYS A 1949- H. F. M MlLLlN 1 9 TURRET INJECTION MACHINE Filed July 13, 1944 5 Sheets-Sheet 2" l N'VENTOR HOWARD F-MMMLU" ATTORNEYS fatentecl Aug. 16, 1949 TURRET INJECTION MACHINE Howard F. MacMillin, Mount Gilead, Ohio, as-

signor to H-P-M Development Corporation, Wilmington, Del., a corporation of Delaware Original application April 15, 1943, Serial No. 483,125. Divided and this application-July 13, 1944, Serial No. 544,711

14 Claims.

This application is a division of Application i Ser. No. 483,125, filed Apr. 15, 1943, now abandoned.

This invention relates to plastic injection machines and particularly to a machine having a high productive capacity.

An object of the invention is to provide a plastic injection machine that is constructed and arranged for simultaneously performing a number of operations that are required to place plastic,

material in condition for an injection molding operation and to inject the plastic material into a suitable mold.

Another object of the invention is to provide a method and apparatus for injection molding.

plastic materials of either the thermosetting or thermoplastic types on a continuous and high production cycle of operation.

Another object of the invention is to provide a method and apparatus for working plastic materials in granular or powdered form to place them in condition for injection molding and to perform the various operations on the plastic material simultaneously so that each injection operation to form an article will be simultaneously accompanied by preconditioning operations on other batches of plastic material, whereby a sequential step process of preparing plastic material for injection and the injection thereof is accomplished.

Another object of the invention is to provide a method and apparatus for molding plastic materials wherein the heating of the plastic material is accomplished rapidly and uniformly by the use of high frequency electrostatic heating.

Another object of the invention is to provide a method and apparatus for injection molding thermosetting plastic materials which includes the step of heating the plastic material to a temperature that initiates polymerization of the material and then transferring the material into an injection molding station for ejecting the thermosetting material that is polymerizing from the injection chamber into the mold before polymerization of the resin is complete.

Another object of the invention is to provide a method and apparatus for injection molding thermosetting resins in accordance with the foregoing object wherein the polymerization of the resin is completed in a mold that is heated for completing the polymerization of the material,

' or the polymerization is completed in the mold by use of the heat developed in the material due to the exothermic reaction of the material.

Another object of the. invention is to provide a turret type injection press for accomplishing the foregoing objects.

Further objects and advantages will become apparentfrom the drawings and the following description.

In the drawings:

Figure 1 is a vertical cross sectional view of a turret injection press for carrying out the method of injection molding of this invention.

Figure 2 is a vertical cross sectional view of a portion of the press taken along line 2-2 of Figure 1. I I I I t Figure 3 is a horizontal cross sectional view of the injection press taken along line 3-3 of Figure l. I

Figure 4 is a cross sectional view of a portion of the injection press taken along line 4-4 of Figure 3 showing the guide pin for aligning the injection cylinder with the mold.

Figure 5 is a vertical cross sectional view of a slightly modied form of press structure for accomplishing the purposes of this invention.

In this invention the press I!) shown in Figures 1 and 2 consists of a bed I I having strain rods [2 extending upwardly therefrom to support the head I3 of the press and an intermediate stationary head M. I

The bed ll of the press has a cylinder l5 extending downwardly therefrom that has a bore 16 for receiving a piston I! having a plunger l8 extending therefrom. A seal member I9 is provided between the plunger I8 and the bore I6 of the cylinder l5, whereby the bore It provides a chamber in which the piston ll can reciprocate and thereby provide a hydraulic motor 20. Fluid conducting conduits 2i and 22 are provided atopposite ends of the cylinder Hi to complete reciprocation of the piston l'l therein according to the direction of flow of fluid under pressure in the respective conduits 2| and 22 from a suitable source of supply and under control of suitable ilow control members. 7

A movable platen 23 is carried upon the plunger l8 and secured thereto in any suitable manner. The strain rods 12 extend through the platen 23 forguiding the same in its reciprocation within the press ascaused by movement of the plunger it. The movable platen 23 carries a die or mold member 24 that is adapted to engage and cooperate with a stationary die or mold member 25- to form a mold cavity therebetween in conventional manner. I

The stationary die 25 is carried upon the intermediate stationary head that is supported by the strain rods I2 between the collars 2B positioned beneath the intermediate head l4 and the collars 21 positioned above the intermediate head I 4. The intermediate head I4 is provided with openings 28 therein to receive reciprocable injection cylinders in a manner that will be hereinafter described. 7 One of the openings 28 is in alignmentwith the sprue opening; 25in the stationary die 25 that conducts plastic material into the die cavity 30 provided in the upper die :25 and the co-operating die cavity 30a-provided in the lower die 24.

The upper head 13 carries amain hydraulic motor 35 which is provided'for ejecting plastic material from an injection cylinder in a manner hereinafter described. The hydraulicmotor 35 consists of a cylinder 3| having a piston 32 therein adapted to reciprocate within the cylinder bore 33, the piston 32 having a plunger 34 that extends through a seal member 35 provided in the end of the cylinder bore 33. The cylinder 3'! is provided with fluid conducting conduits 31 and 38 at opposite ends thereof for introducing 'fluid under pressure to reciprocate the piston 32 and thus reciprocate the plunger 34 in accordance with the delivery of fiuid under pressure to the respective conduits 31 and 38 which fluid is delivered from a suitablesource and under control of suitable valves to regulate the flow thereof to the conduits 31 and 38. V

The plunger 34 may be provided with an enlarged head 39 that forms an injection plunger adapted to enter injection cylinders 40 carried upon a turret 45.

The turret 45 is provided with a plurality of identical injection cylinders 40, each of which is adapted to receive the injection plunger 39 to permit ejection of plastic material from the injection cylinders '40. V

The injection cylinders 40 are provided with an internal bore' H that tapers at the front end thereof to a nozzle orifice 42. The injection plunger 39 may have a tapered forward portion '43 provided with an extending tip 44 that is adapted to enter the nozzle orifice 42 so that all of the plastic material in the injection cylinder 40 can be ejected from the cylinder bore 4| on each stroke of the injection plunger 39 into the cylinder bore4l' if desired.

It will .be noted that the hydraulic motor 35 for ejecting plastic material from the injection cyli'nder 4!) and the'hydraulic motor 2!! for closing the dies or molds 24 and 25 are on the axial center line of the press I so that the principal and largest forces required in the injection molding of the plastic material are developed on the axial center line of the press and thereby the force is evenly distributed between the four corner strain rods of the press l0.

- The turret table 45 is carried upon a plunger rod 46 and supported upon a collar 41 secured to the lower end of the plunger rod 45. The turret table 45 is prevented from rotation upon the plunger rod 46 by means of a pin 48.

The upper end of the plunger rod 46 carries a piston 49 that 'recipro'cates within a cylinder having a cylinder bore 52 to thereby provide a hydraulic motor 50 for lifting and lowering the .turret table 45. Suitable fluid conducting conduits 53 and 54 are provided at opposite ends of the cylinder 51 to conduct fluid under pressure to the cylinder 5! as controlled by suitable control valves for reciprocating the piston 49 in the cylinder bore 52. A packing gland 55 is provided for sealing the lower end of the cylinder bore 52.

The plunger rod 46 carries a worm wheel 55 thereon that is engaged by a Worm 51 carried upon the driven shaft of an electric motor 58 that is mounted on a bracket 59 extending from the upper head [3 of the press H]. The worm wheel 53 is slidably positioned upon the plunger 45 so that the plunger. can reciprocate through the worm wheel 56 but the wheel will not rotate relative to the plunger 46 due to the longitudinally extending keyway 50 that is engaged by a key 6| carried by the worm wheel 56.

The injection machine of this invention is constructed and arranged so that the usual independent operations of feeding granular plastic material to the injection cylinder, compressing the granular plastic material, heating the plastic material and ejecting the same from the injection cylinder can all be accomplished in individual and simultaneous operations so that each stroke of operation of the press will cause ejection of plastic material from an injection chamher and produce an article. As illustratedin Figure 3 the injection machine of this invention is provided with four stations, the turret therefor being provided with four injection cylinders 46 which are sequentially positioned by the turret at the loading station A, the compressing sta tion B, the heating station C and the injection station D. The turret'45 is suitably indexed to place the injection cylinders at their various stations by means of the electric motor 58 that is controlled by suitable control mechanisms for starting and stopping the same when it is desired to index the turret 45. A turret locking mechanism 62 is provided with an electrically actuated pin 53 that engages slots or recesses 54 in the turret 45 to stop the indexing of the turret at the proper position, the locking mechanism 62 being actuated by suitable control mechanisms in response to the rotation of the turret 45.

Th apparatus for charging each of the injection cylinders 40 when positioned in the loading station A preferably consists of an apparatus for charging a predetermined weight of granular plastic material into the injection cylinders so that all of the charge of granular material can be ejected from the injection cylinders upon each stroke of the injection plunger 39.

The loading mechanism consists of a hopper 55 that is suitably secured to the upper head 63, as by means of the brackets 55. The hopper 65 is provided with an opening 6'? in the bottom wall thereof that is opened and closed by means of a gate 68 having an opening 63 therein that aligns with the opening 6? when the gate is in the open position. as shown in Figure 2 to permit granular plastic material, or powdered material, to flow from the hopper 65 into the measuring chamber 10 of the loading mechanism.

The measuring chamber 753 is provided with a weighing apparatus that consists of a weighing platform. H pivotally mounted upon the measuring chamber is by means of the pivot pin 72. A lever arm 73 extends from the weighing platform H and is engaged by a link '14 that has one end thereof engaging the weighing arm 15 that carried the weight 76. The Weighing arm 75 engages an electric contact 1'! that controls the electric circuit to the solenoid 18 that operates the gate 68 through means of the bellcra'nk l5 and the link to close the same. when the solenoid .78 is dc-energized. A spring 8! aids in closing the gate 68.

In order 'to regulate the time when the weighing platform II will dumpthe Weighed plastic charge thereon into an injection cylinder 40, a solenoid 82 is provided to actuate an arm 83 to permit an arm 84 to raise relatively to the weighing arm I5 so that a slot 85 in the arm 84 will permit vertical movement of the weighing arm I5 whereby the platform II can dump the charge into the injection cylinder 40.

When a charge of plastic is to be weighed the apparatus will be in position as shown in Figure 2 with the gate 58 open and with the arm 84 positioned with the upper edge of the slot spaced a slight distance from the upper edge of the weighing arm 15. When a predetermined weight of material has gathered on the platform II it will rotate downwardly to lift the arm 15 and break electric circuit through contact 11 and thus de-energize the solenoid I8 to permit the spring 8| to close the gate 68. The arm I5 can at this time rise only sufficiently to engage the upper edge of the slot 85 in the arm 84 whereby the weighed charge of plastic material upon the platform II will be held in the weighing chamber I0. When the controls are actuated to perform an injection operation by the plunger 39, the solenoid 82 will be energized to lift the arm 84 and thereby permit the weighed material on the platform II to drop into the injection cylinder 40.

The heating apparatus for heating the charge of plastic material in the injection cylinders 40 at the heating station C consists of an electrode 86 that is reciprocable within an insulating bushing 81 positioned within the upper head I3 of the press. The electrode 86 is secured to an insulating bushing or separator 88 that secures the electrode 86 to a plunger 89 extending from a hydraulic rnotor 90* that consists of a cylinder 9I and a piston 92. Suitable fluid conducting conduits 93 and 9 are provided for conducting fluid under pressure from a suitable source of supply to opposite ends of the cylinder 9| for reciprocating the piston 92 and thus reciprocating the elec-' trode 88 within the injection cylinders 40. The electrode 86 is adapted to be positioned axially within an injection cylinder 40- during the cycle of operation of the machine and is positioned therein so that the forward end of the electrode 86 is positioned substantially the same distance from the forward end of the injection chamber 4! as the radial distance between the periphery of the electrode 86 and the inner periphery of the injection chamber 4 I. An insulating bushing 95 is adapted to retain alignment between the electrode 86 and the injection chamber 4! when the electrode is in position therein.

The electrode 86 is connected to one side of a source of high frequency current that is generated by any suitable apparatus such as a high frequency radio frequency generating mechanism. The frame of the injection press I0 is connected to a second terminal of the source of high frequency current so that a field of high frequency current is set up between the electrode 86 and the injection cylinder 40.

When speaking of high frequency current, high frequency field or high frequency in this application, the applicant is referring to that type of current of extremely high frequency that can be generated with the use of radio frequency apparatus that develops frequencies of 1,500,000 to 10,000,000 cycles and is not to be confused or compared with magnetic heating or induction heating. The use of high frequency current in creating a high frequency field in which the plastic material is placed causes the plastic material to be heated uniformly and rapidly throughout the entire mass of plastic material that is within the field of high frequency. This heating is actually accomplished in the plastic material itself and is not a result of any conductive heat. One of the explanations of the cause of this heating of plastic material is that the high frequency current produces deformation of the molecules of the plastic material at an extremely rapid rate. The deformation of the molecules of the material causes friction between them that results in the formation of heat to raise the temperature of the plastic material because the heat of friction cannot be dissipated at a greater rate than it is produced in the plastic material. As long as the surface of the electrodes are spaced uniformly from one another the plastic material between the electrodes will be heated uniformly throughout its entire mass so that relatively thick cross sections of plastic material can be heated in a very short period of time.

Therefore, when the electrode 86 is within the injection cylinder 40, these elements being connected to the power terminal of a source of high frequency current, there will be created an intense high frequency field between the elements that will result in high frequency electrostatic heating of the plastic material therebetween, the plastic material acting as the dielectric between the electrodes.

After the plastic material has been fed into the injection cylinders 40 at the loading station A and before the material is heated in the heating station C it is precompressed in the compressing station B.

The compressing station 13 consists of a hydraulic motor I00 having a cylinder 96 and a piston 91. The piston 91 carries a plunger 98 that extends from the cylinder 96 through a seal member 99. Fluid conducting conduits IIII and 502 are provided at opposite ends of the cylinder 96 for conducting fluid to opposite ends thereof and thus reciprocates the piston 9'! and plunger 98 as controlled by suitable control valves for regulatin the direction of flow of the fluid to the conduits IOI and I02 from a suitable source of fluid.

The plunger 98 carries a compressing or preforming plunger I03 that enters the injection cylinder 40 for compressing or .preforming the granular plastic material therein that has been loaded at the loading station A. It may be preferable to have the plunger I03 form a depression or recess in the granular plastic material of the injection cylinder 40 in the manner shown in Figure 2 wherein a recess I04 is provided in a compressed charge of plastic material I05 so that the electrode 96 can enter the charge of plastic material without actually causing any movement of the material or requiring that the electrode be of sufficient size and strength to withstand the force of compressing the granular plastic material. However, it may be desirable in the interest of speed of operation of the press and economy of construction of the same to combine the heating station 0 and the compressing station B into a single station.

Operation j Assuming that the injection press I0 has operated a suflicient number of times to cause indexing of the turret 45 and filling of each of the injection cylinders 40 with a charge of granular plastic material, and assuming that the press is in a condition wherein the injection plunger 39 has just performed an injection operation and anemone the; tu r'retzd ihasljustheenvretractedziromizthedne. termediate heads; It; the completion; of; the ere: traction movementzof thetmrettfi will .cause'ace tuaticnsofa control means to energize theturret locking: mechanism $2; and thee1ectric1motor-58 tor-initiatezindexing .of thesturretsi 4.5. The turret 4-51. will then=index1until the; locking; pin .63." of the" loekingimechanism. 52. enters. the; nextasuccessivareeess 54 thereby stopping the. indexing. of: the. turretzand. stoppingthe; electric-.motor; 58 either by cuttingoif the; current to the same-0r by stalling the motor: With the turretin; its newly. indexed positiongthe machine .is in. condition'for performing anin-jectionoperation. However, before the injection .operationeis startedthe hydraulic motor. ;,will. beioperated': to;closel the movable die 24 upon the. immovable. die and clamp the same together; Concomitant with this operation-.fluidis supplied to the hydraulic motor 59 to lower the turret 15 into positiorrssothaiizthe nozzle 1 i555 on the injection cylinder engages Uh'Gi IlOZZIEiSGSkBtiI in the stationary; die 25 and seals thereon; A suitable interlockcontrol can be-tproyidedto; then actuate suitablevalve mechanismsiondirectin'g fiuid to thehydraulic. motors 35;. dcand; ifia ltoncause downward movementof the injection plungerr39;..the electrode 8fiand the performing; or=:compressing plunger 33.. to eject hot plastic material from the injection cylinder til attfierstation l1:introduce;theelectrode-.86 intoith'e conrpressedicharge of plastic material at thenstation- Cl to .heat thegsame:v and. compressea treshccharge oi plasticmaterial at the-station B.

When the hydraulic motors 35, 98 and. IiiEhare energized thezsolenoid GZj can be energized tapermitath-e weighed charge of granular plasticmate= rial on-the platform-1! to" fall into the. injection cyiinderrat the stationA; Thetfour normal op erations of 1a plastic...injec.tion machine; are: thus accomplished: on: this apparatus simultaneously soqthat each cycle of operatiomof thevmachine. willntaker substantially less time; than a: single "ofioperation ofa conventionalplastic. in-

mmaehine." Unonwcompletion'of'the ejection. of :p1astic.-material from the injection cylinder at thestation Dthe; hydraulic motors-35; 5.9, a-ndeIBIl Will .2596; to lifttheriniection plunger 39 ifrom thie ingestion.cylinderr ifi -at the station'Q-tolift electrode from thezinjectionpcylinder. at ationC. theplasticrnaterial at this station ag suidciently heated? to be in-condition for in, ection molding: to net the precompnessing iii-from" the in-ieetioni cylinder at 1 the stat n .B and-'zrai-sathe turret 45-110 lift the-injectiongcylindors-49,fronrthe openings: 28in: the intemnediatehead '4 to. permit .indexingtthereof;

When vthe turret 45 reaches itswuppermost .po- Sifiol'lua'i controlwill; be I actuated. to. :energize the k g mechanism-Bland the motor-581430; index the rretfor the-next cyclewof operation;

While a. particular cycle-ofoperation has just been described with regard-to the machine, show-n in! Figurer-l, yet-it is 'tobe-understood.that certain operationso-f the machine couldjbe combined. at one station and be performedneither simultanee ously or in rapid sequence in order to reduce the number of stations on the press. As an example, precompressingr: and heatingof the: plastic material'. cou'ldabe accomplished; at one station si- Imilta-neouslyi because; the electrode" enters" the plasticimaterial forheating with same-and the. plunger -to;which the electrodesis:attachedscouldcompressethe': plastic :material :while it; is? being? heatedr Alsmitfis:amentinelyrpractical considers ation toefeedsaaweighed or measured-rename. of plasticnmaterial 1&1; :the.--.stationjustxprioryto the entry thersheatingg electrode.- into-the; cylinder so :that the feeding .andsubsequent compressing and heating couldbe accomplishedain .rapid. sequence at:a single station. Also; if .the'heating of the material would require approximately. double the' timeerequiredjfor in-j ection; andsetting .of the plastic. material, twe heating :stations-could be providedrand; feedthetsamafrom acommon hop.- per-by1means1ofi aatwoeway dump apparatusr. This latter-arrangement; lends itself to the use of: one source; of high. frequency; the power output. ofwhich. could be -alternately-,-'shitted .between. the heating chambers:

In Figure fithere isshownza: S m a fied form" or; theinvention-wherein. the; press. I In. is provided. with: a-movable platen .I II guided upon the; strain rods. I I2. and wmovedwby' means ofa. hydraulic. motor muthe .sa-mea.mannerqas here: toforei; described: with- I regardto the. apparatus shown? iniEigeure-i 1: An intermediate. stationary headnIISds; carriedaupori the strain rods II2.be-. tween the; lower ands uppercollars; I I4. and .I I5,- respectively, Anzizpperjstationary; head-.1 I 6 is also. carried upon: the strainrods: II 2.

The intermediate stationary; head: I I3-. carries thestationarm dieel I'I Whi3lrthfi .platen I I I can'- riessaemovalolezdie I I 8 thatmcoe operates with. the. stationarydie.-;-.I Iltoforam a mold. cavity.

Amine ection: cylindere-I-Zflrhaving an injection chamber 52] is. positioned'inwthe. intermediate. head. I I3 and suitably secured thereto,;.the injection::cylinder:- I2 0. being :I Ositioned .on. the axial center linezoftheeinieotionapliess I I0; In -this modification.:there;;is1=only oneinjectioncylindez. providechfor theinjectionmachinaand it remains in iIfiSEfiXEdJi'DOSitiGII in:athe.stationaryv head I I3. during; the; operation: of; the-.-.machi-nei in corn tradistinction: to ;the.crotatin g;-inj eetion. cylinders. described 1with;;regard :to. trier-apparatus shown in Figural. The injection-cylinder I12 Elrrhas an injection; nczzle li zvhaving aa-nozzle orifice I23 that conductsiplastieinto the'adie-cavityJM of the die I ll aindtheco-operating idle-cavity I24a1 in. the d-ie;l -8

Av. rotating. turret; I30 is; positioned; above a plate-.131 carriedszuporr thezheadzl l3-randin slid-i ing:'engagementytherewithe An axle-shaft. I32 is. provided fortheturret I3B:.;-th at is non-rotatably secureditheretozbygmeans ofi.thepin'-.I 33,-:theshafit I32: being; bearingedjn thezbearing; I34 in the head? I I3 and the: hearing; I 35 ins'the :upper head- II& A suitable:-;antii-trictionwtluustshearing I I33 is carried in the heads I.I svfOI} supportingga .collar orshoulder I31 provided. on- :the turret axleshaft I32i-to;'take the load: of-theeturret; l30-s0 .that a light sliding conta ctrcan the maintainedwbetween the-turret I 3B c andvtheeplate 4:34:

The turret I30iisrotated bynneans oi-anr el.ee..-.- tricmotor I3Bfithrough means of a'worm I39:on the-drive shaft; of the motor and a worm wheel I40 on the turret axle shaaflt'zliikitheiworm wheel I40 beinganonerotatably secured-to the' axle shaft I 32... The-turret I.3.I1-'has a "pluralityof, individual chambersi I4 I that are jadaptedntoi receive charges of granular: plastic. materials These:- chambers MI. arearrangednsoi that; they-can assume the same sstationn ppsitionszras. previously: I referred. to withz.regardetoxtheiapparatns,shown-in Figures sosthatatheiplasticzmaterial 112621011101: the-chambers'ld I canz-tberworkedzuponz The ifeeding; heate lngnandecompressing apparatus sofa-theapress II I1 is: the: same: as; thatrtheretofores described: with regardetofiguresillandha Aiisoptherfunctioning of these mechanisms is the same so that their detailed construction and operation need not be reiterated with regard to the contraction of the press IIO.

Operation of modified apparatus The principal difference in the operation of the press disclosed in Figure 5 is in the operation of the turret I 30. It will be noted that the turret I30 is not reciprocable but is merely rotatable so that the charges of plastic material in the chambers I4I are successively brought over the stationary injection cylinder I20. The plate I3I forms the bottom wall of the chambers I4! to retain the plastic material in the chambers through the loading, compressing and heating stations A, B and C, respectively, and is provided with an opening at the injection station D in alignment with the injection cylinder I20 so that the injection plunger I39a can force the plastic ma-' terial from the chamber I4I into the injectio cylinder I20.

The stroke of the injection plunger I 39a is somewhat longer than the stroke'of the heating electrode and the precompressing plunger because this plunger is to move into the injection cylinder I20 wherein pressure is developed on the hot plastic material therein to force the same into the dies II 1 and H8. Preferably there is little or no pressure developed in the chamber MI in alignment with the injection cylinder I20 so as to prevent plasticized plastic from entering the crevice between the plate I3I and the turret I30.

The generalcycle of operation of the press I I of Figure 5 is the same as that herefore described with regard to the press shown in Figure 1 except that the reciprocation of the turret is omitted, it being apparent that the omission of this portion of the operation of the machine would not require any special changes in the general cycle of operation of the machine.

While the form of the apparatus disclosed and described herein constitutes a preferred form of the invention, yet it is to be understood that the apparatus is capable of substantial alteration without departing from the spirit of the invention, and that all such modifications as fall within the scope of the appended claims are intended to be included herein.

Having thus fully described my invention, what I claim as new and desire to secure by Letters Patent is:

1. An injection molding machine including, a movable platen carrying a die and having means for moving the platen, a stationary head, an intermediate stationary head disposed between said first mentioned head and said platen and carrying a die for co-operation with the die carried by the platen, a turret having a plurality of chambers therein, means rotatably supporting said turret between said stationary head and said intermediate head, means for moving said turret to sequentially position said chambers in operating relationship with the die carried upon the intermediate head, means for feeding individual charges of plastic material into said chambers, means for compressing plastic material in said chambers, means co-operating with said chambers to produce a field of high frequency therein to heat plastic material in the chambers, and means for ejecting plastic material from said chambers, said feeding, compressing, heating and ejecting means being positioned above said turret for co-operation with the chambers carried thereby.

2. An injection molding machine including, a movable platen carrying a die and having means for moving the platen, a stationary head, an intermediate stationary head disposed between said first mentioned head and said platen and carrying a die for co-operation with the die carried by the platen, a turrent having a plurality of chambers therein, means rotatably supporting said turret between said stationary head and said intermediate head, means for moving said turret to sequentially position said chambers in operating relationship with the die carried upon the intermediate head, said chambers carried by said turret providing stations for feeding, compressing, heating and ejecting plastic material therefrom, said ejecting station being positioned substantially on the axial center line of the machine and said means rotatably supporting said turret be-' ing positioned off center of the machine, means for feeding individual charges of plastic material into said chambers, means for compressing plastic material in said chambers, means co-operating with said chambers to produce a field of high frequency therein to heat plastic material in the chambers, and means for ejecting plastic material from said chambers, said feeding, compressing, heating and ejecting means being positioned above said turret for co-operation with the chambers carried thereby.

3 An injection molding machine including, a movable platen carrying a die and having means for moving the platen, a stationary head, an intermediate stationary head disposed between said first mentioned head and said platen and carrying a die for co-operation with the die carried by the platen, a turret having a plurality of chambers therein, means rotatably supporting said turret between said stationary head and said intermediate head, means for rotating said turret to sequentially position said chambers in operating relationship with the die carried upon the intermediate head, means for reciprocating said turret to place the chambers into operating position relative to the die carried by the intermediate head and for withdrawing the same from operating relationship with the die to permit indexing of the turret, means for feeding a charge of plastic material to a chamber in the turret, means for compressing a charge of plastic material in a chamber, means for applying a field of high frequency current upon a compressed charge of plastic material in a chamber, and injection plunger means for completely ejecting a heated charge of plastic material from a chamber. 4. An injection molding machine including, a movable platen carrying a die and having means for moving the platen, a stationary head, an intermediate stationary head disposed between said first mentioned head and said platen and carrying a die for co-operation with the die carried by the platen, a turret having a plurality of chambers therein and positioned in slidable engagement with said intermediate head, an injection chamber in said intermediate head with which said chambers in said turret are aligned upon indexing thereof by means for indexing said turret, said intermediate head forming the bottom wall of said chambers in said turret, means for feeding a charge of plastic material into said chambers, means for compressing a charge of plastic material in said chambers, means for applying a field of high frequency current upon a com- 11 pressed: charge of plastic material in a chamber for raising the temperature thereof suitable for plasticinie'ction, andirzziectiori piunger means for transferring a heated charge; of plastic material from: a chamber into said: injection cylinder and ej acting: the material-from. sarl'dt cylinder-e.

5; injection moulding: machine including in: combination, a stationary head. for carryingija die member; amovable platen! disposed beneath said; stationary head. for carrying a complementary diemember. and having means operabl-y cone nected thereto for moving the platen relative to said: stationary head. a second. stationary head. positioned above said first mentioned stationary head, a turret positioned between said. stationary heads. having a plurality oi. chambers therein. and a plurality of independently operable means, supported by said second stationary head operable concurrently for independently and concurrently entering the several chambers in said. a

turretto Work upon plastic material in said chamhers simultaneously.

6.. An injection moulding machine including, in. combination, a stationary head carrying a die. member, a movable platen disposed beneath said. stationary head, and carrying a. complementary die member and having means operab'ly con,- nected thereto for moving the platen relative. to said stationary head, a second stationary head positioned above said first mentioned stationary head, a turret position between said stationary heads having a plurality of chambers therein, means supported by said second stationary head for operably cooperating with said chambers in said turret to work upon plastic material in said chambers, and means formoving said turret relat'ive to said first mentioned stationary head to place the chambers carried by the turret in operating association with the die member carriedby" said first mentioned stationary head.

'72. An. iniiection moulding machine including in combination, a stationary head carrying a; die member, a movable; platen. disposed beneath said stationary head and carrying a complementary die member and having. means operably connected: thereto for moving; the platen relative to said sta.- tionary head a second stationary head. positioned above said first mentioned stationary head, a turret positioned between said stationary heads havmg; a plurality oi chamberstherein, means supported by said second stationary head for operably cooperating with said. chambers in said turret to Work. upon plastic material.- in said. chambers, means: for moving said turret relative to said first mentioned stationary head to placethe: chambers carried. by the turret. in. operating association with thediemember carried by said. first mentioned stationary head, and means for sequentially indexing said chambers relative to a die member carriedby said first mentioned stationary head.

8. An. injection moulding machine including, in combination; a stationary head carrying a die member,. a movable platen disposed beneath said stationary head and carrying a complementary die member and having means operably connected thereto for moving the platen relative to said stationa-ryhead', a second stationary head positioned above said first mentioned stationary head, a turret positioned between said stationary heads having. a plurality of chambers therein, reciprocable. means carried by said second stationary head for moving said turret relative to said first stationary head to place the chambers carried thereby in operative association with the die member carried by said first stationary head, and; additional reciprocable means: carriedbysaidseo- 0nd stationary head for moving operating members relatively to said chambers for working; upon. plastic material therein.

9. An injection moulding machine including in combination, astationary head carrying a die member, a movable platendisposed beneath said stationary head and carrying a complementary die member and having. means operably con:- nected; thereto for moving: the platen relative to; said stationary head, a second stationary head positioned above said first mentioned stationary head, a turret: positioned between: said: stationary heads" having? a plurality of chambers: therein, reciprocable: means carried by said secondzstae tionary. head for moving" said turret relative to.- said first stationary head to place the chambers: carried thereby inv operative association with the:

die member carriedloy said first stationary head,

said re'ciprocable means providing shaft means for rotatably supporting said turret and disposed: an off-center relationship relative to the axial center of said first head, said chambers insaidtu-rret being positioned thereon radially aboutcombination, a bed, a plurality of strain rods secured to said bed and extending upwardly therefrom, a stationary head supported by said strain rods. intermediate the ends thereof and carrying a die member; a movable: platen positioned between said stationary head. and. said bed, motor means: carried by said bed for moving said platen relative to said: stationary head to carry a die member supported thereby into engagement with the die member carried by" said stationary head, a. second stationary head secured upon. said strain rods adjacent the upper end. thereof,v a turret positioned between said. stationary heads having a plurality of chambers therein, reciprocable means. carried by said. second. head for moving said turret relative to said first. head for moving said. chambers into engagement with the die member carried by said. first head, means for feeding plastic material into said chambers, reciprocable heating means movable into operating. relationship with said chambers for heating. the plastic material therein, and a reciprocable injection ram carried by said second head for entering said chambers to eject material. therefrom,

11. An injection moulding machine including in combination, a bed, a plurality of strain rods se cured to said bed and extending upwardly therefirom, a stationary head supported by said strain rods intermediate the: ends thereof and carrying die member, amovable platen positioned between said stationary head and said bed, motor means carried by said bed for moving said platen relative to said stationary head to carry a die member supported thereby into engagement with the. die member carried by said stationary head, a second: stationary head secured upon said strain rods adjacent the upper end thereof, a turret positioned between. said stationary heads having. a plurality oi chambers therein, reciprocable means carried by said second head for moving said turret relative to said first head for moving said chambers into engagement with the die member carried by said first head, means for feeding plastic material into said chambers, reciprocable heating means adapted to be connected to a source of high frequency current movable into operating relationship with said chambers for establishing a field of high frequency energy within said chambers for heating plastic material therein, and a reciprocable injection ram carried by said second head for entering said chambers to eject material therefrom.

12. An injection moulding machine including in combination, a stationary head carrying a die member, a movable platen disposed beneath said stationary head and carrying a complementary die member, means for moving said platen relative to said stationary head to clamp said die members together, a second stationary head positioned above said first mentioned stationary head, a turret positioned between said stationary heads having a plurality of chambers therein, a plurality of means supported by said second stationary head operable for independently entering said chambers to work upon plastic material therein, an injection chamber carried by said first stationary head, and means for moving said turret to place the chambers carried thereby in operative association with said injection chamber and thus with the die member carried by said first mentioned stationary head.

13. In an injection molding machine, a clamping station comprising a first stationary head and a platen movable theretoward for clamping a mold, a second stationary head spaced from said first head on the side thereof opposite said platen, a turret rotatably supported between said heads and having a plurality of circumferentially spaced chambers therein, means for indexing said turret to carry said chambers successively into operative alignment with said clamping station, and a plurality of 'circumferentially spaced working stations in alignment with the indexed positions of said chambers, said working stations including a precompacting station for compacting the plastic material in the chambers, a heating station for heating the plastic material in the chambers, and an injection station for ejecting the material from the chambers, said stations being operable on the material in said chambers in the order named and said injection station being in alignment with said clamping station.

i i. In an injection molding machine, a clamping station comprising a first stationary head and a platen movable theretoward for clamping a mold, a second stationary head spaced from said first head on the side thereof opposite said platen, a turret rotatably supported between said heads and having a plurality of circumferentially spaced chambers therein, means for indexing said turret to carry said chambers successively into operative alignment with said clamping station, and a plurality of circumferentially spaced working stations in alignment with the indexed positions of said chambers, said working stations including a feed station for feeding a, predetermined amount of material into said chambers, a precompacting station for compacting the plastic material in the chambers, a heating station for heating the plas tic material in the chambers, and an injection station for ejecting the material from the chambers, said stations being operable on the material in said chambers in the order named and said injection station being in alignment with said clamping station.

HOWARD F. MAcMILLIN.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS Number Name Date 1,597,803 Kearney et al Aug. 31, 1926 2,280,771 Dufour et a1 Apr. 28, 1942 2,356,338 Misfeldt Aug. 22, 194.4 2,356,634 Von Opel Aug. 22, 9 :4

FOREIGN PATENTS Number Country Date 851,723 France Oct. 9, 1939 

